describe('iD.geo - geography', function() { describe('geoLatToMeters', function() { it('0 degrees latitude is 0 meters', function() { expect(iD.geoLatToMeters(0)).to.eql(0); }); it('1 degree latitude is approx 111 km', function() { expect(iD.geoLatToMeters(1)).to.be.closeTo(110946, 10); }); it('-1 degree latitude is approx -111 km', function() { expect(iD.geoLatToMeters(-1)).to.be.closeTo(-110946, 10); }); }); describe('geoLonToMeters', function() { it('0 degrees longitude is 0 km', function() { expect(iD.geoLonToMeters(0, 0)).to.eql(0); }); it('distance of 1 degree longitude varies with latitude', function() { expect(iD.geoLonToMeters(1, 0)).to.be.closeTo(111319, 10); expect(iD.geoLonToMeters(1, 15)).to.be.closeTo(107526, 10); expect(iD.geoLonToMeters(1, 30)).to.be.closeTo(96405, 10); expect(iD.geoLonToMeters(1, 45)).to.be.closeTo(78714, 10); expect(iD.geoLonToMeters(1, 60)).to.be.closeTo(55659, 10); expect(iD.geoLonToMeters(1, 75)).to.be.closeTo(28811, 10); expect(iD.geoLonToMeters(1, 90)).to.eql(0); }); it('distance of -1 degree longitude varies with latitude', function() { expect(iD.geoLonToMeters(-1, -0)).to.be.closeTo(-111319, 10); expect(iD.geoLonToMeters(-1, -15)).to.be.closeTo(-107526, 10); expect(iD.geoLonToMeters(-1, -30)).to.be.closeTo(-96405, 10); expect(iD.geoLonToMeters(-1, -45)).to.be.closeTo(-78714, 10); expect(iD.geoLonToMeters(-1, -60)).to.be.closeTo(-55659, 10); expect(iD.geoLonToMeters(-1, -75)).to.be.closeTo(-28811, 10); expect(iD.geoLonToMeters(-1, -90)).to.eql(0); }); }); describe('geoMetersToLat', function() { it('0 meters is 0 degrees latitude', function() { expect(iD.geoMetersToLat(0)).to.eql(0); }); it('111 km is approx 1 degree latitude', function() { expect(iD.geoMetersToLat(110946)).to.be.closeTo(1, 0.0001); }); it('-111 km is approx -1 degree latitude', function() { expect(iD.geoMetersToLat(-110946)).to.be.closeTo(-1, 0.0001); }); }); describe('geoMetersToLon', function() { it('0 meters is 0 degrees longitude', function() { expect(iD.geoMetersToLon(0, 0)).to.eql(0); }); it('distance of 1 degree longitude varies with latitude', function() { expect(iD.geoMetersToLon(111319, 0)).to.be.closeTo(1, 1e-4); expect(iD.geoMetersToLon(107526, 15)).to.be.closeTo(1, 1e-4); expect(iD.geoMetersToLon(96405, 30)).to.be.closeTo(1, 1e-4); expect(iD.geoMetersToLon(78714, 45)).to.be.closeTo(1, 1e-4); expect(iD.geoMetersToLon(55659, 60)).to.be.closeTo(1, 1e-4); expect(iD.geoMetersToLon(28811, 75)).to.be.closeTo(1, 1e-4); expect(iD.geoMetersToLon(1, 90)).to.eql(0); }); it('distance of -1 degree longitude varies with latitude', function() { expect(iD.geoMetersToLon(-111319, -0)).to.be.closeTo(-1, 1e-4); expect(iD.geoMetersToLon(-107526, -15)).to.be.closeTo(-1, 1e-4); expect(iD.geoMetersToLon(-96405, -30)).to.be.closeTo(-1, 1e-4); expect(iD.geoMetersToLon(-78714, -45)).to.be.closeTo(-1, 1e-4); expect(iD.geoMetersToLon(-55659, -60)).to.be.closeTo(-1, 1e-4); expect(iD.geoMetersToLon(-28811, -75)).to.be.closeTo(-1, 1e-4); expect(iD.geoMetersToLon(-1, -90)).to.eql(0); }); }); describe('geoOffsetToMeters', function() { it('[0, 0] pixel offset is [0, -0] meter offset', function() { var meters = iD.geoOffsetToMeters([0, 0]); expect(meters[0]).to.eql(0); expect(meters[1]).to.eql(-0); }); it('[0.00064, -0.00064] pixel offset is roughly [100, 100] meter offset', function() { var meters = iD.geoOffsetToMeters([0.00064, -0.00064]); expect(meters[0]).to.be.within(99.5, 100.5); expect(meters[1]).to.be.within(99.5, 100.5); }); }); describe('geoMetersToOffset', function() { it('[0, 0] meter offset is [0, -0] pixel offset', function() { var offset = iD.geoMetersToOffset([0, 0]); expect(offset[0]).to.eql(0); expect(offset[1]).to.eql(-0); }); it('[100, 100] meter offset is roughly [0.00064, -0.00064] pixel offset', function() { var offset = iD.geoMetersToOffset([100, 100]); expect(offset[0]).to.be.within(0.000635, 0.000645); expect(offset[1]).to.be.within(-0.000645, -0.000635); }); }); describe('geoSphericalDistance', function() { it('distance between two same points is zero', function() { var a = [0, 0]; var b = [0, 0]; expect(iD.geoSphericalDistance(a, b)).to.eql(0); }); it('a straight 1 degree line at the equator is approximately 111 km', function() { var a = [0, 0]; var b = [1, 0]; expect(iD.geoSphericalDistance(a, b)).to.be.closeTo(111319, 10); }); it('a pythagorean triangle is (nearly) right', function() { var a = [0, 0]; var b = [4, 3]; expect(iD.geoSphericalDistance(a, b)).to.be.closeTo(555804, 10); }); it('east-west distances at high latitude are shorter', function() { var a = [0, 60]; var b = [1, 60]; expect(iD.geoSphericalDistance(a, b)).to.be.closeTo(55659, 10); }); it('north-south distances at high latitude are not shorter', function() { var a = [0, 60]; var b = [0, 61]; expect(iD.geoSphericalDistance(a, b)).to.be.closeTo(110946, 10); }); }); describe('geoZoomToScale', function() { it('converts from zoom to projection scale (tileSize = 256)', function() { expect(iD.geoZoomToScale(17)).to.be.closeTo(5340353.715440872, 1e-6); }); it('converts from zoom to projection scale (tileSize = 512)', function() { expect(iD.geoZoomToScale(17, 512)).to.be.closeTo(10680707.430881744, 1e-6); }); }); describe('geoScaleToZoom', function() { it('converts from projection scale to zoom (tileSize = 256)', function() { expect(iD.geoScaleToZoom(5340353.715440872)).to.be.closeTo(17, 1e-6); }); it('converts from projection scale to zoom (tileSize = 512)', function() { expect(iD.geoScaleToZoom(10680707.430881744, 512)).to.be.closeTo(17, 1e-6); }); }); });